The SUDA sensor head rests upon a table in a clean room. The sensor head is gold in color, shaped slightly like a drum on its side with a door facing the viewer that is closed. An engineer in white coveralls, a mask, and light blue gloves is on the right side of the image and is seen peering over the instrument. The engineer is holding a handheld device attached a blue wire, which itself is attached to the sensor head, and they perform a test. Is a purple light is shown on the table and on the front of the engineer.
Source: NASA/CU Boulder/Glenn Asakawa
Published: August 16, 2022

An electrical engineer performs an electrical grounding test on Europa Clipper’s SUrface Dust Analyzer (SUDA) sensor head. The sensor head is shown in a clean room at the Laboratory for Atmospheric and Space Physics (LASP) at the University of Colorado Boulder.

Tiny meteorites eject bits of Europa’s surface into space and a subsurface ocean or in-ice water reservoirs might vent material into space as plumes. To study this, SUDA will scoop up larger particles from these plumes and identify their chemistry, revealing Europa’s surface composition including potential organic molecules. SUDA can detect salts in the dust and ice grains, providing additional information about a subsurface ocean. If a subsurface ocean or reservoir is venting material into space as plumes, SUDA will help us to determine if Europa’s water is suitable for some form of life.

Europa Clipper will conduct nearly 50 flybys of Europa, which scientists are confident has an internal ocean containing twice as much water as Earth’s oceans combined. And the moon may currently have conditions suitable for supporting life. The spacecraft’s nine science instruments will gather data on the moon’s atmosphere, surface, and interior – information that scientists will use to gauge the depth and salinity of the ocean, the thickness of the ice crust, and potential plumes that may be venting subsurface water into space.